/***********************************************************************************************************************
 * Copyright [2020-2021] Renesas Electronics Corporation and/or its affiliates.  All Rights Reserved.
 *
 * This software and documentation are supplied by Renesas Electronics America Inc. and may only be used with products
 * of Renesas Electronics Corp. and its affiliates ("Renesas").  No other uses are authorized.  Renesas products are
 * sold pursuant to Renesas terms and conditions of sale.  Purchasers are solely responsible for the selection and use
 * of Renesas products and Renesas assumes no liability.  No license, express or implied, to any intellectual property
 * right is granted by Renesas. This software is protected under all applicable laws, including copyright laws. Renesas
 * reserves the right to change or discontinue this software and/or this documentation. THE SOFTWARE AND DOCUMENTATION
 * IS DELIVERED TO YOU "AS IS," AND RENESAS MAKES NO REPRESENTATIONS OR WARRANTIES, AND TO THE FULLEST EXTENT
 * PERMISSIBLE UNDER APPLICABLE LAW, DISCLAIMS ALL WARRANTIES, WHETHER EXPLICITLY OR IMPLICITLY, INCLUDING WARRANTIES
 * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT, WITH RESPECT TO THE SOFTWARE OR
 * DOCUMENTATION.  RENESAS SHALL HAVE NO LIABILITY ARISING OUT OF ANY SECURITY VULNERABILITY OR BREACH.  TO THE MAXIMUM
 * EXTENT PERMITTED BY LAW, IN NO EVENT WILL RENESAS BE LIABLE TO YOU IN CONNECTION WITH THE SOFTWARE OR DOCUMENTATION
 * (OR ANY PERSON OR ENTITY CLAIMING RIGHTS DERIVED FROM YOU) FOR ANY LOSS, DAMAGES, OR CLAIMS WHATSOEVER, INCLUDING,
 * WITHOUT LIMITATION, ANY DIRECT, CONSEQUENTIAL, SPECIAL, INDIRECT, PUNITIVE, OR INCIDENTAL DAMAGES; ANY LOST PROFITS,
 * OTHER ECONOMIC DAMAGE, PROPERTY DAMAGE, OR PERSONAL INJURY; AND EVEN IF RENESAS HAS BEEN ADVISED OF THE POSSIBILITY
 * OF SUCH LOSS, DAMAGES, CLAIMS OR COSTS.
 **********************************************************************************************************************/

/** @} (end addtogroup BSP_MCU) */

#ifndef BSP_IRQ_H
#define BSP_IRQ_H

/** Common macro for FSP header files. There is also a corresponding FSP_FOOTER macro at the end of this file. */
FSP_HEADER

/***********************************************************************************************************************
 * Macro definitions
 **********************************************************************************************************************/
#define BSP_ICU_VECTOR_MAX_ENTRIES    (BSP_VECTOR_TABLE_MAX_ENTRIES - BSP_CORTEX_VECTOR_TABLE_ENTRIES)

/***********************************************************************************************************************
 * Typedef definitions
 **********************************************************************************************************************/

/***********************************************************************************************************************
 * Exported global variables
 **********************************************************************************************************************/
extern void * gp_renesas_isr_context[BSP_ICU_VECTOR_MAX_ENTRIES];

/***********************************************************************************************************************
 * Exported global functions (to be accessed by other files)
 **********************************************************************************************************************/

/*******************************************************************************************************************//**
 * @brief      Sets the ISR context associated with the requested IRQ.
 *
 * @param[in]  irq            IRQ number (parameter checking must ensure the IRQ number is valid before calling this
 *                            function.
 * @param[in]  p_context      ISR context for IRQ.
 **********************************************************************************************************************/
__STATIC_INLINE void R_FSP_IsrContextSet (IRQn_Type const irq, void * p_context)
{
    /* This provides access to the ISR context array defined in bsp_irq.c. This is an inline function instead of
     * being part of bsp_irq.c for performance considerations because it is used in interrupt service routines. */
    gp_renesas_isr_context[irq] = p_context;
}

/*******************************************************************************************************************//**
 * Clear the interrupt status flag (IR) for a given interrupt. When an interrupt is triggered the IR bit
 * is set. If it is not cleared in the ISR then the interrupt will trigger again immediately.
 *
 * @param[in] irq            Interrupt for which to clear the IR bit. Note that the enums listed for IRQn_Type are
 *                           only those for the Cortex Processor Exceptions Numbers.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqStatusClear (IRQn_Type irq)
{
    /* Clear the IR bit in the selected IELSR register. */
    R_ICU->IELSR_b[irq].IR = 0U;
}

/*******************************************************************************************************************//**
 * Clear the interrupt status flag (IR) for a given interrupt and clear the NVIC pending interrupt.
 *
 * @param[in] irq            Interrupt for which to clear the IR bit. Note that the enums listed for IRQn_Type are
 *                           only those for the Cortex Processor Exceptions Numbers.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqClearPending (IRQn_Type irq)
{
    /* Clear the IR bit in the selected IELSR register. */
    R_BSP_IrqStatusClear(irq);

    /* The following statement is used in place of NVIC_ClearPendingIRQ to avoid including a branch for system
     * exceptions every time an interrupt is cleared in the NVIC. */
    uint32_t _irq = (uint32_t) irq;
    NVIC->ICPR[(((uint32_t) irq) >> 5UL)] = (uint32_t) (1UL << (_irq & 0x1FUL));
}

/*******************************************************************************************************************//**
 * Sets the interrupt priority and context.
 *
 * @param[in] irq            The IRQ to configure.
 * @param[in] priority       NVIC priority of the interrupt
 * @param[in] p_context      The interrupt context is a pointer to data required in the ISR.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqCfg (IRQn_Type const irq, uint32_t priority, void * p_context)
{
    /* The following statement is used in place of NVIC_SetPriority to avoid including a branch for system exceptions
     * every time a priority is configured in the NVIC. */
#if (4U == __CORTEX_M)
    NVIC->IP[((uint32_t) irq)] = (uint8_t) ((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t) UINT8_MAX);
#elif (33 == __CORTEX_M)
    NVIC->IPR[((uint32_t) irq)] = (uint8_t) ((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t) UINT8_MAX);
#elif (23 == __CORTEX_M)
    NVIC->IPR[_IP_IDX(irq)] = ((uint32_t) (NVIC->IPR[_IP_IDX(irq)] & ~((uint32_t) UINT8_MAX << _BIT_SHIFT(irq))) |
                               (((priority << (8U - __NVIC_PRIO_BITS)) & (uint32_t) UINT8_MAX) << _BIT_SHIFT(irq)));
#else
    NVIC_SetPriority(irq, priority);
#endif

    /* Store the context. The context is recovered in the ISR. */
    R_FSP_IsrContextSet(irq, p_context);
}

/*******************************************************************************************************************//**
 * Enable the IRQ in the NVIC (Without clearing the pending bit).
 *
 * @param[in] irq            The IRQ to enable. Note that the enums listed for IRQn_Type are only those for the Cortex
 *                           Processor Exceptions Numbers.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqEnableNoClear (IRQn_Type const irq)
{
    /* The following statement is used in place of NVIC_EnableIRQ to avoid including a branch for system exceptions
     * every time an interrupt is enabled in the NVIC. */
    uint32_t _irq = (uint32_t) irq;
    NVIC->ISER[(((uint32_t) irq) >> 5UL)] = (uint32_t) (1UL << (_irq & 0x1FUL));
}

/*******************************************************************************************************************//**
 * Clears pending interrupts in both ICU and NVIC, then enables the interrupt.
 *
 * @param[in] irq            Interrupt for which to clear the IR bit and enable in the NVIC. Note that the enums listed
 *                           for IRQn_Type are only those for the Cortex Processor Exceptions Numbers.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqEnable (IRQn_Type const irq)
{
    /* Clear pending interrupts in the ICU and NVIC. */
    R_BSP_IrqClearPending(irq);

    /* Enable the IRQ in the NVIC. */
    R_BSP_IrqEnableNoClear(irq);
}

/*******************************************************************************************************************//**
 * Disables interrupts in the NVIC.
 *
 * @param[in] irq            The IRQ to disable in the NVIC. Note that the enums listed for IRQn_Type are
 *                           only those for the Cortex Processor Exceptions Numbers.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqDisable (IRQn_Type const irq)
{
    /* The following statements is used in place of NVIC_DisableIRQ to avoid including a branch for system
     * exceptions every time an interrupt is cleared in the NVIC. */
    uint32_t _irq = (uint32_t) irq;
    NVIC->ICER[(((uint32_t) irq) >> 5UL)] = (uint32_t) (1UL << (_irq & 0x1FUL));

    __DSB();
    __ISB();
}

/*******************************************************************************************************************//**
 * Sets the interrupt priority and context, clears pending interrupts, then enables the interrupt.
 *
 * @param[in] irq            Interrupt number.
 * @param[in] priority       NVIC priority of the interrupt
 * @param[in] p_context      The interrupt context is a pointer to data required in the ISR.
 *
 * @warning Do not call this function for system exceptions where the IRQn_Type value is < 0.
 **********************************************************************************************************************/
__STATIC_INLINE void R_BSP_IrqCfgEnable (IRQn_Type const irq, uint32_t priority, void * p_context)
{
    R_BSP_IrqCfg(irq, priority, p_context);
    R_BSP_IrqEnable(irq);
}

/*******************************************************************************************************************//**
 * @brief      Finds the ISR context associated with the requested IRQ.
 *
 * @param[in]  irq            IRQ number (parameter checking must ensure the IRQ number is valid before calling this
 *                            function.
 * @return  ISR context for IRQ.
 **********************************************************************************************************************/
__STATIC_INLINE void * R_FSP_IsrContextGet (IRQn_Type const irq)
{
    /* This provides access to the ISR context array defined in bsp_irq.c. This is an inline function instead of
     * being part of bsp_irq.c for performance considerations because it is used in interrupt service routines. */
    return gp_renesas_isr_context[irq];
}

/*******************************************************************************************************************//**
 * @internal
 * @addtogroup BSP_MCU_PRV Internal BSP Documentation
 * @ingroup RENESAS_INTERNAL
 * @{
 **********************************************************************************************************************/

/* Public functions defined in bsp.h */
void bsp_irq_cfg(void);                // Used internally by BSP

/** @} (end addtogroup BSP_MCU_PRV) */

/** Common macro for FSP header files. There is also a corresponding FSP_HEADER macro at the top of this file. */
FSP_FOOTER

#endif
